Body-forming machine for producing sanitary cans



v G. M. STEVENSON. BODY FORMING MACHINE FOWPRDDUGiNG SANITARY CANS.

APPLICATION FILED lAN.12. 1920. 1,43%5Qg Patented Nov. 21, 1922,

1.3 SHEETS-SHEET 1'.

WITNESSES G. M. STEVENSON.

BODY FORMING MACHINE FOR PRODUCING SANITARY CANS.

no 00 Aw 13 SHEETS-ShEET 2.

INVENTOR WITNESSES m ATTORNEY G. M STEVENSON.

BODY FORMENG MACHINE FOR PRODUCING SANITARY CANS. APPLICATION HLED JAN. 12, 1920.

1,48 6,5%& I Patented N v- 21, 1922.

I \3 SHEETS-SHEET 3- Q: Q l Q Q g 5 E 5 ii NITNESSES G. M. STEVENSON.

BODY FORMING MACHINE FOR PRODUCING SANITARY CANS.

APPLICATION FILED JAN.I2,1920. 1,436,548. I Patented Nov. 21,1922.

l3 SHEETSSHEET 4.

. INVENTORI .MSZev an,

ATTORNEY G- M. STEVENSON. v v BODY FORMING MACHINE FOR PRODUCING SANITARY CANS.

APPLICATION FILED IAN. I2, I920.

Patented Nov. 21, 1922,

I3 SHEETSSHEEI'5.

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BODY FORMING MACHINE FOR PRODUCING SANITARY CANS.

APPLICATION FILED JAN. 12. I920. 1,4E86,5%8 I P n fi Nov. 21,1922,

13 SHEETS-SHEET 6.

G. M. STEVENSON. BOVDY FORMING MACHINE FOR PRODUCING SANITARY CANS.

" APPLICATION FILED JAN, 12, I920. 1,436,548, Patented Nov. 21, 1922,

13 SHEETSShEET 'I- I I l I I l I 4- I f/l "7 7 7 r 1 /5 7" I 0 my 1% 15/ m 758 J 7/7 I i I 4 7:76 I

I. 7 4.]? 177 7431/ I 778 aIg g-fi [2 I24 WITNESSES 76% ATTORNE a. M. STEVENSON BQDY FORMINGMACHINE FOR PRODUCING SANITARY CANS.

. APPLICATION FILED JAN. 12. 1920' v 1,436,54 PatentedNov. 21,1922

13 SHEETS-SHEET 8.

WITNESSES G. M. STEVENSON. 300v FORMING MACHINE FOR PRODUCING SANITARY cA ls.

APPLICATIONTILED JAN. 12, I920. 5%8

Patented Nov.

l3 SHEETS-SHIN 9.'

snsgaa ATI'bRNEY G. M. STEVENSON.

BODY FORMING MACHINE FOR PRODUCING SANITARY CANSI I APPLICATION FILED IN. I2, I920- I 1,436,548. Patented Nov. 21, 1922.

13 SHEETS-SHEEI l- I7 a I 9 3W III I4 l 78g i 79 83 72 -5 5% 8 I 87 16' I: \I4 1/7 AL I a V 50 L.

W IIIIIIII WITNESSES A-rroR'NEY' 'e. M. STEVENSON. v I BODY FORMING MACHINE FOR PRODUCING SANITARY CANS APPLICATION FILED IAN. I2, I920.

1a SHEETSSHEET n.

INVEN'IOR I iIlIIIIIIML win-II i.

Patented Nov. 21, 1922.

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WITNESSES W W I ATTORNEY G. M. STEVENSON.

BODY FORMING MACHINE FOR PRODUCING SANITARY CANS. APPLICATION FILED 1AN.I2,1920.

1,436,548. Patented NOV. 21, 1922 I3 SHEETS-SHEET l2.

INVENTOR,

WITNESSES MMW BY I e. M- STEVENSON. BODY FORMIN G MACHINE FOR PRODUCING SANITARY CANS.

APPLICATION FILED JAN. 12, I520.

Patented Nov; 2 1, 1922;

I3 SHEETSSHEET l3.

WITNESSES ATTORNEY Patented Nov. 21, 1922.

UNITE STATES PATENT @FFIQE.

GEORGE M. strnvnnson, or BALTIMORE, MARYLAND.

sowsoeama MA'on'nvr For. PRODUCING SANITARY cans.

Application filed January 12, 1920. Serial No. 350,888.

have invented a new and useful Body-Forming Machine for Producing Sanitary Cans, of which the following is asp'ecifica-tion.

This invention has reference to body form; ing machines forproducing sanitary cans, and its object is to provide a machine in which certainobjectionable features of other body formingmachines areavoided.

The invention comprises a machine in which sheets or tin plate, which is the material usually employed, are fed into and caused to progress through the machine, such sheets constituting blanks of appropriate size to be ultimately formed into open-ended cylinderswith the meeting edges joined and ready to receive caps or ends. During the time the blank is passing through the ma} chine, the oppositeedges are suitably shaped for ultimzit-e interlocking The invention comprises means whereby the blank fed into the machine moves through the latter intern'iittently with periods of rest during which the corners of the blank, which is of rectangular form, are clipped off, this operation being termed notching, so that when the blank is formed into a cylinder and the meeting edges are interlocked, the end portions of the can are not thickened by excess layers of the tin and hence the can caps or heads may be readily and properly applied.

After entering the machine and passing through the notching Zone, each. blank is fed forwardly to enter the zone in which those edges of the blank constituting the meeting edges in the can are bent over so that when brought together theywill interlock, this operation being termed edging. Finally the notched and edged blank, in its travel throiigh the machine, is fed to a horn about which the blank is bent into cylindrical form, and after the meeting edges are interlocked and hammered tight. the finished cylinder is discharged from the machine.

The invention contemplates feeding means for oausi'n'g the progres'sive movement of the blank through the machine with each com peema e p at a" short step, the long step b eing'but little short or the complete step so thatthe momentum imparted to the blank by the long step will not cause the blank to override the length of the complete step but stop short thereonwhereupon a slight impulse is imparted tothe blank sufiicient to complete the step without giving to the blank sufiicient momentum to pass beyond the limits of the complete step.

The second impulse givento the blank need move it but a fractional portion of an inch, say about one quarter of an inch.

The invention also contemplates means whereby the machine maybe adjusted to take blanks of difl'erentwidth's, adapting the ma chine to the production of headless can bodies of different sizes with the parts so constructed that the adjustment is accomplished in much less time than has heretofore been found necessary for the purpose.

The invention will be best understood from a consideration of the following detailed description taken in connection with the accompanyingdrawings forming part of this specification, with the understanding, however, that the invention is not confined to any strict conformity with the showing in the drawings, but maybe changed and modified so long as such changes and modifi cations mark no material departure from the salient features of the invention as expressed in the appended elaims.

In the drawings,

Figure 1 is an elevation of one side of a machine embodying the invention.

Figure 2 is an elevation of the opposite v Figure 6 is a section on the line 6-6 of Figure 8 i Figure 7 is a section on the line 7-7 of Figure 6. i

Figure 8 is a perspective view of a portion of the machine as seen in Figure 2, showing means for adjusting parts for the produra tion of can bodies of different sizesv Figures 9, 10,11 and 12 are sectional views of parts of t e adjust ng mechan sm for ting the machine for different widths of: can. blanks, such mechanism appearing particu larly in Figures 2 and 8. t

Figure 13 is a perspective view, on a larger scale than other views, of ,a presser bar structure.

Figure 145 is a section on Figure 13.

Figure 15 is a section on the line of Figure 14.

Figure 16 is a perspective view, on a larger scale than certain of the other figures, or a cam and rocker mechanism forming part of the machine and forming part of the notching mechanism.

Figure 17 is an elevation of the cam and rocker mechanism showing one ot the cams in cross section.

Figure 18 is a section on line 14- 14.- of

the line 16 18 of Figure 1, with some distant parts omitted. Figurelll is a detail section showing a cam arrangement for line adjustment ct certain parts.

Figure 20 is a crosssection of a portion of the edger mechanism with parts omitted.

Figure 21 is a plan view at the feeding bar arrangement for the can blanks.

Figure 22 is a longitudinal vertical. section of the,structure shown in Figure 21.

Figure 23 is a section on the line 23--23 of Figure 22.

Referring to the drawings, there is shown a base plate 1, end frames 2 audit, respectively, and a top or table 4. These several parts may be in the form of castings of more or less open Web-and-fiange construction and designed to carry various mechanisms making up the working parts of the machine.

At one end of the machine, which, because it is the receiving end, may be termed the front end, there is secured a hopper 5i suitably shaped to receive a supplyot blanks to be fed into the machine, such 'l eeding being usually by hand. The blanks are of generally rectangular form of a width corresponding to the height of the canbody to be produced, and'oit a length somewhat greater than the circumference of the finished can body to provide to the ove lapping and interlocking ol the meeting edges of the blank. The for which the machine is designed, may be considered as made of tin plate and the blanks are cut to size betore being fed into the machine.

From the hopperthe blanks are led one at a time into the entering or feeding end (it the machine and each blank is there engaged by intermittently acting one-way feeding mechanism arranged to propel] the blank by the edge remote from that advancing into the machine. The feeding mechanism is so arranged as to move thehlank through the machine by successive steps,

with each step comprising a stroke slightly step of movement shorter than that dimension of the blank representing the height of the can, followed immediately by a short stroke representing but a fraction of an inch, with the two strokes together making up a full feeding of the blank through the machine. Such combined long and short strokes are provided to prevent overriding of the can blank, for, in operation, the travel of the blank through the machine is rapid, and there is liability, should the full movement be accomplished in one stroke of the can. blank, 0t overriding the limit of travel. and so interfering with the proper operation of the machine upon the can blank.

After the blank has been moved a suitable distance into the machine, it is brought to a temporary standstill in operative relation to a mechanism which is termed a notcher, this mechanism severing small corner portions from the blank, So that the latter maybe ultimately formed into a can body, which is of cylindrical shape with the meeting edges locked together, without the ends of the can where the heads are applied being of undue thickness. It the corners of the blank were not cut-oil, the seam would have throughout its length a thickness of four layers of sheet metal, thus greatly interfering with the proper application of the head 01" the can. By treating the blank, in the notching zone, inits movement through the machine, such excessive thickness is avoided. Followi 1g the notching, the travel of the blank through the machine is resumed and continued until another Zone, termed the edging Zone, is reached, the propulsion of the blank being by long and short strokes, as before, and the blank is then acted upon by edging mechanism. This results in those edges of the blank afterward joined. together to produce a longitudinal seam. being properly bent over. The progressive movement of the blank through the machine is then resumed until the blank is brought into operative relation to a horn about which the b ank is folded by appropriate mechanism and the edges are forced together into intimately locked relation. a' which the completed can body in CO11- dition to receive the heads discharged from the machine I On the table is a longitudinal bar 6 tending rearwardly tron] the forward or feeding end on thetable through approximately the longitudinal upright center plane of the table. This bar is provided in its upper surface with longitudinal grooves7 opening through the top surface of the bar for the greater portion of the length of the machine so as to include the entering, notching and edging zones. On opposite sides of the bar 6 are other bars 8, 9, respectively. each having a ledge 10 on a level with the top surface of the bar 6. The bars 8, 9 have override the particular zone through which the can blank is pushed. Such shortening of the travel of the can blank in moving it from one operative position to another causes the can blank to stop before it has quite reached the desired position, and therefore the additional push bars 48 are provided to impart a short, slight impulse to the blank but suiiicient to carry it to the limit of the stroke ready for action upon the blank in accordance with the Zone in which it is then located. Each complete feeding movement is therefore represented by the sum of two.

movements, the first including a movement but a little short of the full, movement and the second completing the full movement or stroke. It would be extremely diliicult, if not impossible, or at any rate would require complex mechanism, to move the can blank. with great rapidity through the machine and intermittently stop the movement without causing the can blank to override the proper location. This difhculty, however, is overcome by dividing the full stroke into a long part nearly equal to the full stroke and a short part which in practice may represent but a fraction of an inch. On account of the function of the bars 45,48 and 48", the bars 45 and 48 are designated push or feed bars, while the bars 48 are termed registering bars since they serve to finally move the blanks into the final or registering position for each complete stroke, the stopping of the blank being caused frictionally.

In order to impart intermittent reciprocatory movements to the bars 45 and 48, with these movements properly timed and of the proper length, each bar 45 and 48 has secured to it a block 50 extending through a slot 51 in the table 4 to a point below said table, the slot being extended longitudinally of said table. The blocks 56 of the bars 45 are connected together by a cross rod 52, from which rod theblocks 50 of the bars 48 are readily detached. One of the blocks 50, say the intermediate one, which may be a double block, is connected by a pitman 58 to a. wrist pin 54 on a disk 55 on the upper portion of an upright shaft 56 mounted in journal bearv ings 57 carried by a bracket 58 made fast to the forward end frame 2 of tile main frame of the machine. The bracket 58 has a con-- tinuation 58 carrying a. gude 50" on which the intermediate block or blocks 50 are sup ported in their reciprocatory inoweinenlnv The lower end of the shaft 56 carries a bevel pinion 59 meshing with another bevel pinion 60 in the corresponding end of the shaft 43. Mounted on the under face of the table 4 above the disk 55 is another disk 61 between which and the disk 55 the wrist pin 54 e2;- tends. The disk 61 is thereby made fast to and rotates with the shaft 56, and in its upper face the disk 61 contains a continuous groove 62 in which, at an appropriate point,

there is a cam offset 63. The bars 48? are each fastened to ablock 64 individual thereto and each extending through alongitudinal slot 65 in the table 4 of the main frame, the blocks 64 being connected together by a rod 66 so as to move simultaneously. To actuate the bars 48 there isprovided a short arm 67 connected at one end to the block 64 carrying the connecting rod 66. The arm 67 carries a roller ,70 engaging in the cam groove 62.

lVhen the shaft 56 is rotating, the disks 55 and 61 are likewise rotated. The rotation of the crank disk or plate 55 imparts a reciprocation to the bars 45 but a little short of the full distance of each complete stroke to be imparted to a can blank and when the maxi-. mum of travel of the can blank under the action of the rods 45 is reached, it is engaged by the rods 48, and, because of the small motion given to these rods: by the shortoffset cam portion 63 of the groove 62, there is imparted to the can blanks a very short additional movement with such little momentum that they will come to rest at once and will not override the full limit of movement intended even to a minute extent.

When the travel of the push or feed bars is occurring, the other parts of the machine are so timed as to remain quiescent so far as action on a blank itself is concerned. While the feed bars are being retracted, the notching, the edging and the folding and locking mechanisms are active, so that at the termination of such period the machine contains a blank just introduced, another blank in front of it with the corners clipped off, still another blank in front of the secondnamed blank with opposite edges bent, one upwardly and the other downwardly, and another blank rolled up into cylindrical form about an appropriate born with the bent edges brought together, interlocked and hammered down. lVhen the forward movement is progressing, a completed can body, so far as the machine is concerned, is ejected from the machine by the next succeeding blank in order. p

In the commercial machine, there may be a plurality of blanks, say, two or three, which pass through certain inactive zones included in the machine, because the'necessary operating mechanism takes up so much space lengthwise of the machine as to necessitate some additional length not provided by the active zones.

As the blanks, a portion of one of which is shown at 71 in Figure 14, travel through the machine in end to end relation in the direction of travel, they are held down upon the top of the bar 6 and the ledges 10 of the bars 8 and 9 and override the push and registering bars 45, 48, 48", as they progress through the machine, finally leaving these parts when reaching the horn and while being acted upon by the mechanism for bending the blank about the horn and finishing the locking of the meeting edges.

The central portion of each blank is held against the feed and registering bars by gravity. To accomplish this, cross bars 72 traverse the path of travel of the blanks in elevatedrelation thereto, being upheld by end posts 73 erected on the top of the table 4 so as to overhang the latter to a sufficient height. These end. bars occur at a'pointa short distance to the rear of the feeding end of the machine and at another-point to the rear of the edging portion of the machine. Eachbar 72 is provided on the edge toward the other bar with a notch or recess 74: preferably of dove-tail form and the notches are designed to hold the end portions of an elongated gravity bar 75 having dove-tail tongues 76 at the ends with the forward end 77 of the bar rising so that the bar may bear upon the blanks as they travel through th machine and. hold them onto the bars 4-5 and 48. The gravity bar '75 is provided with laterally-p-rojecting handles 7 8 by means of which the gravity bar 75 may be lifted from the machine when it is desired to reach parts over which the gravity bar is located. i

Mounted on the expanded part of each flange 11 is a slide 7 9 having side tongues 80, 81 on opposite sides of and embracing the upper portion of the expanded part 14 oi the flange 11. The slide is held on the expanded part of the flange 1]. by means of a spring leaf 82 held to the expanded part l-t by screws 83 or otherwise, the arrangement being such that the slide may be placed upon the expanded part l t forward of the spring 82 and then pushed rcarwardly so that the spring will override the slide and thereby hold it firmly butremovably in place. At one side the slide 79 is provided. with a manipulating side. that is toward the center line of the machine, the slide carries a socket 855 projectlug downwardly toward the table 4. The socket carries a runner 86 on the lower end of a stem 87, said. runner having a forward upturned toe 86, and within the socket the stem is surrounded by a spring 88 tending to move the runner 86 against a blank 71 when beneath it. A head 89 fast to the stem 87 outside of the socket serves to limit the movement of the runner 86 under the expansive effect of the spring 88. The runner 86. therefore. serves as an elastic or yieldable friction element bearing against the blank 71 holding it against the surface along which it travels but with insutlicient force to prevent such travel. By means of the elastically yieldable runners 86 and the gravity bar 75. the blanks T1 are held flat against the bar 6 and the ledges 10.

There is a pair of sockets with slides handle Si and at the other 10!), respectively, the

79 individual thereto on each side of the blank runway or path of travel, one socket of each pair being located near the front end of the notcher structure and the other being located at a! point to the rear of the notcher structure, while the runner 86 is elongated into a shoe long enough to extend in front of one slide and to the rear of the other slide of the same pair. This provides a long bearing for engaging the corresponding portions of a succession of blanks 71 and holding them down upon the support formed by the bar 6 and ledges 10. i

To provide for the adjustment of the feeding path for different sizes of cans, the larger sizes requiring greater widths and the small sizes narrower widths. the invention includes mechanism whereby the two sides of the feeding path may be caused to approach or recede simultaneously to equal extents, parallelismv being maintained, or for some purposes one side may be adjusted without affecting the other side. This .last adjustment is particularly important, since in completing the joint by hammering the meeting edges together, the layers of tin where overlapping must accurately enter the spline provided for the purpose in the bodyforming horn. Otherwise 'the joint would be imperfect for the horns are sometimes inaccurately set. Therefore, the blanks must be guided a little to one side or the other so that the spline in the horn. will properly lodge the meeting edges while the latter are being forced together.

At one side of the machine there is provided a casing or housing 90 secured to the table l. by screws 91 or otherwise. EXtencL ing through the end portions of the housing 90 are shafts 92, 93,'res1i ectively, these shafts being spaced apart lengthwise of the machine suliiciently to bring them into operative relation to the notching and edging mechanisms, respectively. Each shaft 92, 93 has screw threads 94 thereon and is also pro vided with a continuation 95,96, respectively, havingscrew threads 97 thereon, the screw threads94. and 97 being respectively right and left hand threads and engaging threaded lugs 98 and 98 fast tothe bars 8 and 9 through suitable slots in the table 4:. The shafts 92, 93 carry sprocket wheels 99, two sprocket wheels being connected by a sprocket chain 101. The sprocket wheel 100 is made fast to the shaft 93 as by a pin 102 and the sprocket wheel 99 is so mounted on the shaft 92 as to be free to turn thereon under certain circumstances. The sprocket wheel 99 carries one member of a clutch 103 and the other menu-- ber of said clutch has a manipulating part 104i. which may be in the form of a knurled knob. slid-able on the shaft 92 and provided with a set screw 105. whereby the two members of the clutch 103 may be brought into each flange 123 is operative engagement or moved apart at the will of an operator.

Each shaft 92, 93 and its continuation 95, 96 is coupled together by a coupling sleeve 106 connected to the respective shafts and their continuations.

Mounted on the shafts 92, 93 are worm gears 107 free to rotate on the shafts and meshing with worms 108 upon another shaft 109 extending through the casing 90 and rojecting through one end thereof where it lias a hand wheel 110 applied thereto. Each worm gear 107 has a hub portion 111 threaded through a boss 112 formed on the casing 90, and exterior to the casing the shaft 92 has fast to it a hand wheel 113, while'the shaft 93 has another hand wheel 114 fast to it, the hand wheel 113 having a milled periphery and the hand wheel 114 being provided with a crank 115.

The sprocket chain 101 is provided with a tightener device 116 of any suitable character extending through and accessible outside of the casing 90 and there provided with a nut 117, whereby the tightener may be held in adjusted positions, the casing 90 having a slot 118 through it to permit such adjustment.

The ends 95, 96 of the shafts 92,93 extend through journal bearings 119 secured to the table 4 at appropriate points, the other ends of the shafts being carried by the casing or housing 90.

Extending through the flanges 13 are bolts 120 having heads movable along undercut slots 121 extending crosswise of the table 4. Lateral adjustment of the edger frames 124 and parts carrying and connected to them is permitted by tracks 124 along which the edger structures slide transversely of the machine. At the rear ends, the bars 8 and 9 have outturned upstanding flanges 123 which may be cast onor secured to said bars. Connected to the flanges 123 are edger frames 124, the connection being by means of bolts or screws 125 traversing said flanges. Also traversed by a cam 126, which latter, when the bolts or screws 125 are loosened, may be utilized as a fine adjustment for the edger frames. The guide bars carrying the push or feed bars 45 and 48 are continued through the edger frame. Each edger frame 124 carries a slide 127 movable up and down in the frame and has a keeper 128. Each edger frame is also provided with a boss or lug 98 suitably threaded to pass the appropriate threaded portion of the screw 94 of the shaft 93 and its extension 96, whereby the opposite edger frames may be adjusted toward or from each other or in other ways which will presently be described.

To adjust the width of the notcher and the width of the edger simultaneously, the shaft 109 is rotated by means of the crank wheel 110. This causes the simultaneous rotation of the worms 108, and with them the simultaneous rotation of the worm gears 107. These worm gears 107 having the hubs 111 fast to them, cause the hubs to screw into or out of the bosses 112 through which they are threaded. This brings about a bodily longitudinal movementof the shafts 92 and 93 so that the edger and notcher mechanisms are moved bodily crosswise or transversely of the machine, such bodily movements being simultaneous.

When it is desired to vary the spacing between the opposite sides of the notcher or edger mechanisms, or both of them, either the hand wheel 113 or the hand wheel 114 is actuated with or without the clutch 103 in mesh. If the clutch 103 is meshing, a rotation of the hand wheel 113 causes a rotation of the sprocket wheel 99, and this in turn actuates the sprocket chain 101, driving the sprocket wheel 100, which is fast to the shaft 93, so that, under the circumstances considered, both shafts 92 and 93 rotate simultaneously and the edger and notcher mechanisms are spread or narrowed as the case may be. If it be desired to spread or narrow the edger only, the clutch 103 is released and the hand wheel 114 is manipulated so that the shaft 93 only is set-in motion, and, because of the opening of the clutch 103, the shaft 92 is not actuated.

By means, therefore, illustrated in detail in Figs. 9 to 12, the notcher mechanisms may be spread or narrowed crosswise of the machine, or the edger mechanisms may be spread or narrowed crosswise of the machine.

At a point below the edger frames is a transverse shaft 129 mounted in journal bearings 130 carried by brackets 131 fast to 5 and projecting forwardly from the rear frame 3 of the machine. The shaft 129 carries eccentrics 132 on opposite sides of the machine keyed to the shaft and each provided with a hub 133 also keyed to the shaft 110 and traversing bearings 134 at the lower end of arms 135 formed on the edger frames 124.

rojecting forwardly from one side of the upper end portion of the rear frame 3 is a post 136 on which is mounted a rocker arm 115 or lever 137 projecting crosswise of the machine on each side of the post 136. One arm 138 of the lever 137 is pivoted to a slide 139 movable up and down between guides 140 fast on the front face of the rear frame 3 120 at an appropriate distance forwardly there from. Carried by a link 138. depending from the arm 138 and guided by the slide 139, which slide is situated in substantially the upright central plane of the machine, is 125 an arm 141 projecting on opposite sides of the midpoint thereof. In the arm 141 are oppositely directed slots 142 so situated as to be located over the two edger frames 124. At the upper end of each edger frame are 130 v 1 13. Extendingat a bumper 166,

lessees upstanding ears 143 appropriately spaced apart and carrying between them an edger clamp lever 1. 14. having an arm 1 15 pivoted by a pin 146, or otl'ierwise, between the ears approximately right angles to the arm 1415 but in opposite directions therefrom areother arms 147 and 1 18, the arm 1t7 being pivotally carried by a block 149 slidablein a respective groove 142 in the arm 14:1. 7 j

.The arms14c8 of the two levers 144C carry steel blocks or strips 150, 151, the steel 150 having a beveled nose 152. Below the steel 150 is another steel 153 serving as a backing member against whichthe steel 150 clamps the corresponding edge of a can blank. The steel 151 is similar in effect to the steel 153 in acting as abacking block, while below, the steel 151 is another steel 154 having at its upper end on one side thereof a nose 155 similar to the nose 152 on the steel or block 150 (see Fig. 20). Carried by the slide 127 of one of the edger-frames or housings 12-1 is a lever 156 constituting part of a folder designed to bend over or foldthe corresponding long edge of a can blank 71. The lever 156 is a substantially right angle lever with one arm 157 extended through the slide 127 to the upper end thereofand there formed into a head or heads 158 carrying a breaking steel 159,, that is, a metal piece, usually steel, for sharply folding the metal of the can blank upon itself. This metal piece 159 is provided with a nose 160 directed toward the nose 152. The lever 156 is mounted onv a pin 161 connected by a pit-man 1.62 to an eccentrio sleeve 168 enclosing the eccentric 132 on the shaft 129. The lever 156has another arm 164- at 'rightangles to the arm 157 and carrying a'set screw 165 serving as a stop screw in thepa th of which there is located The lever 156 has a shortarm or lug on the side of the pivot pin 161 remote from the short arm 167, and in the path of this arm 167 ried by the slide 127.

In like manner the other slide 127 has a lever l69'pivoted thereon by a pin 1'70 connected by a pitman 171 with an eccentric stra 172 enclosing the other eccentric 132 on the shaft 129 but located on the opposite side of tho machine. The lever 169 is pix vided with an upstanding arm 173 terminating at the'upperend, in a head or heads 174 carrying a breaking steel 175 provider with a transverse nose 176 adapted to cooperate with the nose 155 to bend the corresponding edgeof a can blank toward the body ofthe blank but inthe opposite direction to the bending of the first-1ncntioned edge of the can blank In the path of a short arm or lug 1770f the lever 169 is a set screw 178 similar to the set screw 168. and the arm 173 of the lever 169 18 provided is a set screw, 168 carwith a substantially right angle arm 179 carrying a set screw 180 in position to engage a fixed part of the corresponding edger frame or housing.

Assuming that the can blank 71 is positioned in the edger structure with the clamp levers 1 1 1 and the folding levers 156 and 169 in the withdrawn or inoperative position, a rocking of the arms 137, 138 causes a movement of the clamp steels 150 and 151 into engagement with the opposite edge portions of the can blank 71 to hold these edges against the backing blocks 153 "and 154. Then, the parts being properly timed, rotation of the shaft 129 causes a movement of the levers 156, 169 to swing the breaking steels 159 and 175, so that the noses 160 and 176 engage those edge portions of the blank 71 projecting from the clamp members holding them, whereupon theseprojecting portions of the blank are bent, one upwardly and other downwardly, into engagement with the other noses 152 and 155, so that the edge portions of the blank are brought intoacute angular relation with respectively opposite faces of the body of the blank. Continued rotative movement of the shaft 129 thereupon moves the edger levers so as to release the edged blank for further progression through the n'iachine.

Extending from opposite side posts of the rear frame 3 toward the upright central plane/of themachine are brackets 1 81 spaced apart at their adjacent ends andthere carrying parallel guides 182 between which is mounted a plate 183 carrying a horn 18st at its upper end, the horn being rated to receive a surface in position can blank on its upper to be folded about the horn into c lindrical form for the engagement of the margins bent by the edger, and interlocking and hammering of the seam, which last operation-may be performedin the usual manner. The horn is provided with a longitudinal spline or groove 185 to receive the seam joining the longitudinal meeting edges of the formed can bod In order to fold the can blank around the horn, folding aws 186 are pivoted on an axis longitudinal of the machine and are supported by a pendant stud 187 dropping'from the crown of the rear frame 3, which frame is of arch form. The folding jaws 186 are each provided with a folding concavity or jaw 188 conforming to the shape of the can when con'ipleted and of suitable length. Atthe free or lower end of each jaw 186 is a locker plate or steel 189 shaped to force the folded-over meeting edges of the blank, when. these meeting edges are brought together. into interlocking engagement, with the engaged edges in position to enter the spline On the face of the brackets 181 toward the rear of the machine are guides 190 for a slide properly lo- 

